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Active clinical trials for "Brain Injuries"

Results 381-390 of 2049

Hypertonic Lactate After Cardiac Arrest

Cardiac ArrestIschemia Reperfusion Injury1 more

The study is intended to test the hypothesis that sodium lactate infusion after resuscitation from a cardiac arrest will decrease the magnitude of brain damage, as measured by the serum biomarker concentration of NSE.

Not yet recruiting9 enrollment criteria

The Biomarkers in the Hyperbaric Oxygen Brain Injury Treatment Trial (BioHOBIT)

Traumatic Brain Injury

There are no therapeutic agents that have been shown to improve outcomes from severe traumatic brain injury (TBI). Critical barriers to progress in developing treatments for severe TBI are the lack of: 1) monitoring biomarkers for assessing individual patient response to treatment; 2) predictive biomarkers for identifying patients likely to benefit from a promising intervention. Currently, clinical examination remains the fundamental tool for monitoring severe TBI patients and for subject selection in clinical trials. However, these patients are typically intubated and sedated, limiting the utility of clinical examinations. Validated monitoring and predictive biomarkers will allow titration of the dose of promising therapeutics to individual subject response, as well as make clinical trials more efficient by enabling the enrollment of subjects likely to benefit. Glial fibrillary acidic protein (GFAP), neurofilament light chain (NfL) and high sensitivity c-reactive protein (hsCRP) are promising biomarkers that may be useful as 1) monitoring biomarkers; 2) predictive biomarkers in severe TBI trials. Although the biological rationale supporting their use is strong, significant knowledge gaps remain. To address these gaps in knowledge, we propose an ancillary observational study leveraging an ongoing severe TBI clinical trial that is not funded to collect biospecimen. The Hyperbaric Oxygen in Brain Injury Treatment (HOBIT) trial, a phase II randomized control clinical trial that seeks to determine the dose of hyperbaric oxygen therapy (HBOT) that that has the highest likelihood of demonstrating efficacy in a phase III trial. The proposed study will: 1) validate the accuracy of candidate monitoring biomarkers for predicting clinical outcome; 2) determine the treatment effect of different doses of HBOT on candidate monitoring biomarkers; and 3) determine whether there is a biomarker defined subset of severe TBI that responds favorably to HBOT. This proposal will: 1) inform a go/no-go decision for a phase III trial of HBOT by providing adjunctive evidence of the effect of HBOT on key biological pathways through which HBOT is hypothesized to affect outcome; 2) provide evidence to support further study of the first monitoring biomarkers of severe TBI; 3) increase the likelihood of success of a phase III trial by identifying the sub-population of severe TBI likely to benefit from HBOT; 4) create a repository of TBI biospecimen which may be accessed by other investigators. This study is related to NCT04565119

Recruiting3 enrollment criteria

Comparison of the Decannulation Protocol With Suctioning and Capping in Severe Acquired Brain Injury...

Tracheostomy DecannulationAcquired Brain Injury

Single-center randomized trail focused on tracheostomized patients with severe acquired brain injury , comparing two different decannulation protocols: an assessment of readiness for decannulation that was based on suctioning frequency an assessment that was based on tracheostomy capping

Not yet recruiting11 enrollment criteria

The EBC Recovery Study

Traumatic Brain Injury

The purpose of this research study to find out if clinically unconscious acute traumatic brain injury patients that show brain activation on electroencephalogram (EEG) (bedside test) have better results and wake up in the future.

Recruiting10 enrollment criteria

Real World Testing of a Brain-Computer Interface

Amyotrophic Lateral SclerosisBrain Stem Stroke3 more

The goal of this project is to test a new AAC-BCI device comparing gel and dry electrode headgear used for communication while providing clinical care. Innovative resources will be employed to support the standard of care without considering limitations based on service billing codes. Clinical services will include AAC assessment, AAC-BCI device and treatment to individuals with minimal movement due to amyotrophic lateral sclerosis (ALS), brain stem strokes, severe cerebral palsy, traumatic brain injury (TBI) and their family support person. This is a descriptive study designed to measure and monitor the communication performance of individuals using the AAC-BCI, any other AAC strategies, their user satisfaction and perceptions of communication effectiveness, and the satisfaction of the family support persons.

Recruiting10 enrollment criteria

The Value of Multimodal MR Imaging in Cognitive Assessment of Patients With Moderate Traumatic Brain...

Brain Injuries

The goal of this observational study is to learn about in The value of multimodal MR Imaging in cognitive assessment of patients with moderate traumatic brain injury. The main question it aims to answer is: • The construction of the core injury model of cognitive impairment caused by moderate brain trauma takes multi-parameter MR scanning as the main line of research, centering on the analysis of cognitive impairment of white matter structure damage and brain function involved in the research institute, and conducts research on key scientific issues such as the validity verification of cognitive prognosis after moderate brain trauma. Participants will be collected for MR, hematology and stool and neuropsychological Scale indicators in the study.

Recruiting6 enrollment criteria

Brain Injury Self-Efficacy Scale Validation

Traumatic Brain InjurySelf Efficacy

The purpose of this study is to validate the Brain Injury Self-Efficacy Scale as a measure of self-efficacy in brain injury by comparing it with other measures of self-efficacy, the GSE, and PROMIS self-efficacy.

Recruiting4 enrollment criteria

Functional Near Infrared Spectroscopy in Adult Surgery

Cerebral Injury

Brain injury is a serious problem after cardiac surgery. Brain injury can become evident in the form of stroke and cognitive dysfunction after surgery. The current neuromonitoring technique used is unable to monitor the region of the brain that is most susceptible to injury. This study aims to use a novel, non-invasive brain monitoring technique known as multichannel functional near infrared spectroscopy to assess brain oxygenation at multiple brain regions simultaneously during cardiac surgery. This research enables the investigators to understand the differences between regional brain oxygenation during cardiac surgery and to assess the feasibility and effectiveness of multichannel functional near infrared spectroscopy to be used as a future brain monitoring technique to detect brain injury in cardiac surgery.

Recruiting5 enrollment criteria

The Utility of Thromboelastography in Traumatic Brain Injury

Traumatic Brain InjuryCoagulation Disorder

Hemocoagulation disorder is recognized to have crucial effects on hemorrhagic or ischemic diseases. Coagulation-related damages secondary to traumatic brain injury are common and severe secondary insults of head trauma and often leads to a poor prognosis. In this study, we sought to assess if posttraumatic hemocoagulation disorders determined using thromboelastography are associated with coagulation-related damages secondary to traumatic brain injury, and evaluate their influence on outcome among patients with head trauma. Based on above results, prediction models or risk scoring systems will be further developed and validated to predict coagulation-related damages secondary to traumatic brain injury.

Recruiting7 enrollment criteria

Predictors of Better Outcomes After Severe Acquired Brain Injuries

Brain InjuriesDisorder of Consciousness

Severe Acquired Brain Injury is defined as a traumatic, post-anoxic, vascular or other brain damage that causes coma for at least 24 hours and leads to permanent disability with sensorial, motor, cognitive or compartmental impairment. In this context, an accurate characterization of individual patients' profile in terms of neuronal damage, potential for neuroplasticity, neurofunctional and clinical state could allow to plan tailored rehabilitation and care pathway on the basis of solid prognostic information, also for optimizing resources of the National Health care systems and enhance ethical decisions. Patient profiling should encompass measures and procedures easily available at the bedside, and with affordable time, resource, and money-costs to determine a real impact on National Health systems. The aim of the study is identifying patient profiles in terms of clinical, neurophysiological and genetical aspects with better long-term outcome in order to plan tailored therapeutic interventions.

Recruiting6 enrollment criteria
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